NL1010080C2 - Method of connecting a shielded cable to a connector, cable connector with a shielded cable and cable connector parts for use in this method. - Google Patents

Description

Method of connecting a shielded cable to a connector, cable connector with a shielded cable and cable connector parts for use in this method.

The invention relates to a method for connecting a connector to a shielded cable, which cable is provided with a number of wires, a common shield and an outer jacket, wherein the 5 wires and the shield are exposed at one end of the cable, a first sleeve-shaped body is placed on the outer jacket near the exposed shield, the exposed shield is placed on the first body, and a second sleeve-shaped body of conductive material is mounted on the first body to clamp the exposed shield between the two bodies . The invention further relates to a cable connector with a shielded cable and cable connector parts for use in the method.

Such a method, cable connector and cable connector parts are shown, for example, in EP-A-0 694 989, Figures 5 and 6. The first body is a plastic sleeve with an inner diameter sufficient to receive the outer sheath of the cable. The shield, which is usually constructed as braided metal wires, is clamped between the plastic sleeve and a second conductive body.

US-A-4 902 249 describes a method of connecting a connector to a shielded cable, wherein an inner ring is mounted on the exposed shield, the shield is placed on the inner ring and the 1010080 2 shielded back on the inner ring covered by a conductive layer, such as a copper foil.

The object of the invention is to provide an improved method of the above type.

According to a first aspect of the invention, the method is characterized in that the first body is mounted on the outer jacket by shrinking an axial section of the first body at the end remote from the exposed shield, the second body shrinking on the first body is mounted with an axial section at its end adjacent the exposed wires which covers at least partially the uncrimped section of the first body.

In this way, the first body is secured in place on the outer jacket before the second body is mounted, while the second body is crimped onto a non-crimped section of the first body, so that a good electrical connection can be obtained between the first and the second body without exerting high forces on the cable. The forces exerted on the cable for securing the inner body can be accurately determined for securing the inner body in place and for providing a desired strain relief of the cable by locking the body (s) inside a connector cover.

According to a second aspect of the invention, there is provided a cable connector with a shielded cable which is provided with a number of wires, a shield and an outer sheath, which cable connector is provided with a housing of insulating material in which a number of contacts connected to the wires are arranged , and a cap of conductive 1010080 3 material connected to the cable shield, wherein a first sleeve-shaped body is mounted on the outer sheath and a second sleeve-shaped body of conductive material is mounted on the first body, the cable being cut between the two bodies is clamped, characterized in that an axial section of the first body remote from the insulating housing is crimped onto the outer sheath, that an axial section of the second body is crimped onto the first body, the axial section of the second body 10 being at least partially covers the non-crimped section of the first body, and that the bodies are housed in a chamber of the hood with a stop that cooperates with at least one of the bodies to lock the bodies in the hood.

According to a further aspect of the invention, cable connector parts for use in the method according to the invention are provided, comprising an insulating housing in which a number of contacts can be received, first and second cap parts of conductive material, a first sleeve-shaped body and a second sleeve-shaped body, wherein at least the second body is made of conductive material, characterized in that the second body comprises a cylindrical and a conical part, at least the conical part comprising a number of axial slots which are open at one end, so that a number of resilient legs is obtained.

The invention will be further elucidated with reference to the drawing, which schematically shows an embodiment of the method and of the cable connector according to the invention.

Fig. 1-9 show successive steps in an embodiment of the method according to the invention for connecting a connector to a shielded cable, FIGS. 6 and 7 show perspective views of a cap portion 1010080 of the connector and FIG. 9 shows the complete shielded cable connector obtained by the method.

Fig. 10 and 11 show successive steps in an alternative embodiment of the method according to the invention.

Fig. 12 shows a connector part used in the method of FIGS. 10-11.

Fig. 13 and 14 show two cap parts of a connector used in a third alternative embodiment of the method according to the invention.

Fig. 15 and 16 show successive steps in the third embodiment of the method according to the invention.

Fig. 1 shows a shielded cable 1 with a number of wires 2, a common shield 3 and an outer jacket 4. The shield is made of braided metal wires. At one end of the cable 1, the wires 2 and the shield 3 are exposed. A first sleeve-shaped body 5 made of a conductive material, for example a metal ring, is slid onto the outer jacket 4, so that one end of the body 5 projects a short distance beyond the outer jacket 4, as shown in Fig. 2. At the other end of the body 5, the body is secured in position on the outer jacket 4 by crimping an axial section 6 on the outer jacket 4. In this way the remaining section 7 does not clamp on the outer jacket 4 and remains relatively flexible.

As shown in Fig. 3, the exposed portion 8 of the shield 3 is placed on the inner body 5, ensuring that the shield 3 contacts the inner body 5 both on the outer peripheral surface and beyond the outer sheath 4 protruding tip. When the exposed shield portion 8 is placed on the inner body 5, a second sleeve-shaped outer body 9 of conductive material 9 is slid onto the inner body 5 until an inwardly facing shoulder 10 at the end adjacent the exposed wires 2 is exposed. -5 the shielding part 8 abuts the respective end of the inner body 5. Next, an axial section 11 at the end of the outer body 9 is crimped near the exposed wires 2 on the exposed shielding part 8 which is supported by the non-crimped sections 7 of The inner body 5. In this way the shield 3 is clamped between the bodies 5,9 with a high clamping force without exerting high forces on the cable 1. A good electrical connection between the bodies 5,9 and the shield 3 is ensured .

FIG. 3 and 4 further show that the second or outer body 9 has a substantially cylindrical portion 12 connecting to the inwardly facing shoulder 10 and a conical portion 13 with slots 14 providing outwardly extending resilient legs 15. The purpose of these legs 15 will be explained below.

When the second body is crimped on the first body to thus clamp the exposed shielding part 8, the wires 2 of the cable 1 can be connected to contacts 16 of the IDC type, which are included in an insulating housing 17 of a connector. The connector further includes a cap with two cap parts 18, one of which is shown in Figures 6 and 7. The hood parts 18 are made of conductive material, with a cover plate 19 mounted at one end of each hood part 18. The cover plate 19 30 is made of insulating material and covers the exposed parts of the contacts 16 when the housing 17 is mounted in the hood. As shown in Fig. 6, the cover plate 19 is mounted on the hood portion 18 by two wing members 20 having a slot engaging beveled edges 21 of the hood portion 18 and two lugs 22 engaging openings 23 of the hood part 18.

Each cap portion 18 is provided with a semi-cylindrical chamber 24 for receiving the outer body 9. This chamber 24 is axially limited by a first shoulder section 25 and a second shoulder section 26. When the wires 2 are connected to the contacts 16 , the insulating housing 17 is mounted in the lower end of the cap portion 18, the second body 9 being fittingly received in the chamber 24. The diameter of this chamber 24 is such that the resilient legs 15 will be pressed inward to provide good electrical ensure connection between the outer body 9 and the hood parts 18 and thus between the shield 3 and the hood parts 18. The axial length of the chamber 24 is such that the second body 9 in the chamber 24 is locked between the shoulder sections 25, 26, so that the bodies 5,9 provide a strain relief for the cable 1. The strength of the strain relief can be determined by the force applied to shrink the first body 5 onto the outer jacket 4.

When the insulating housing 17 and the second body 9 are mounted in the first cap portion 18, an identical second cap portion 18 is placed on top of the first cap portion 18, the cap portions 18 being secured together by, for example, rivets 27.

As shown in FIGS. 8 and 9, two bolts 28 are placed in respective bolt chambers 29, which are formed in wing sections 30 of the hood parts 18, for mounting the hood parts 18 together. The bolts 28 each comprise a head 31 , a shank section 32 and a thread section 33. The outer diameter of the shank section 32 is smaller than the outer diameter of the head and the screw thread section 33, respectively. Each bolt chamber has a passage 34 that receives the shaft section 32 with clearance, however the diameter of the passage 34 is smaller than the outer diameter of the head 31 and the threaded section 33, respectively. In this manner, the mounting bolts 28 are loosely mounted without any further special provisions on the cap parts 18 or the bolts 28.

FIG. 10-12 show an alternative embodiment of the method, connector and connector parts of the invention. Parts corresponding to the parts of the embodiment according to Fig. 1-9 are indicated with the same reference numerals.

In fig. 10,11 the shielded cable 1, the wires 2 and the shield 3 are only schematically shown. As in the first embodiment, the wires 2 and the shield 3 are exposed at one end of the cable 1. Furthermore, the first body or inner ring 5 is mounted on the outer jacket 4 of the cable with an end projecting beyond the outer jacket 4. The inner ring 5 is attached to the cable 1 by crimping the axial section 6 on the outer sheath 4. In the present embodiment, the inner ring 5 is provided with a radially protruding ring 35 at the end remote from the shield 3.

When the shield 3 is placed on the outer surface of the inner body 5, the second sleeve-shaped body or outer ring 9 is slid onto the first body 5 until the inwardly facing shoulder 10 engages the corresponding axial end of the first body 5. In the embodiment, the second body 9 is provided with slots 14 which extend over the major part of the axial length of the second body 9, as shown in FIG. 12, so that flexible legs 36 are obtained which are directed outward as in FIG. 10. can be seen.

The cap parts 18 are provided with a receiving chamber 24 for the outer ring 9, a slot 37 being formed at one end for receiving the ring 35 of the inner ring 5. The diameter A of the chamber 24 near the slot 37 is smaller than the outer diameter B of the flexible legs 36, so that when the bodies 5,9 are mounted in the chamber 24, the flexible legs 36 of the outer body 9 are pressed against the inner body 5, thereby clamping the exposed shielding part 8 between the two bodies 5.9. The ring 35 is received in the slot 37, so that the first and second body 5,9 are locked in the hood parts 18 and a desired strain relief is obtained.

It will be clear that the wires 2 can be connected to IDC contacts 16 located in an insulating housing 17 in the same manner as in the first embodiment according to Figs. 1-9.

FIG. 13-16 show a third embodiment of the method, connector and connector parts according to the invention. Corresponding parts are designated with the same reference numerals. The shielded cable 1, the wires 2, the shielding 3 and the outer jacket 4 are shown highly schematically in FIGS. 15 and 16. In the same manner as in the first and second embodiments, the wires 2 and the shield 3 are exposed on one end of the cable 1, and the same inner ring 5 with a radial ring 35 on an end remote from the shield 3 is mounted on the outer sheath 4 by crimping an axial section 6 on the outer jacket 4. In this case, one end of the inner ring 5 is aligned with the end of the outer jacket 4.

1010080 9

The exposed shielding portion 8 is placed on the outer surface of the inner ring 5.

In the third embodiment, a second sleeve-shaped body or outer ring 38 with a conical shape is used. In cross-section, the diameter of the outer ring 38 increases from a radially inwardly directed shoulder 39 at the end adjacent to the exposed wires 2 toward the end remote from the exposed wires. The inner diameter of the outer ring 38 near the shoulder 39 approximately corresponds to the outer diameter of the inner ring 5.

In this third embodiment, two cap parts 40 and 41 are used, which are shown in Figs. 13 and 14 respectively. The cap part 40 is provided with a cylindrical receiving chamber 42 with an outer diameter A which is larger than the largest outer diameter B of the outer ring 38. One shoulder 43 of the cap portion 40 provides a stop for the ring 35 of the inner ring 5. When the wires 2 are connected to the contacts 16 of the insulating housing 17 (not shown), the inner and outer bodies or rings become 5.38 is placed in the receiving chamber 42 of the cap portion 40, as shown in FIG. The second cap part 41 is provided with a receiving chamber 44 and a slot 45 for receiving the ring 35 of the outer ring 5. The receiving chamber 44 has a conical shape corresponding to the conical shape of the outer ring 38, the largest diameter of which the receiving chamber 44 near the slot 45 corresponds to the largest diameter of the outer ring 38. When the second cap part 41 is placed on the first cap part 40, the conical receiving chamber 42 will push the outer ring 38 towards the slot 45, so that the exposed shielding part 8 of the shielding 3 will be clamped between the outer body 38 and the inner body 5. The inner and outer bodies 5,38 are locked in the cap parts 40,41 by the ring 35 being received in the slot 45 and engages the shoulder 43 of the first cap portion 40. In this way, a strain relief is obtained.

It will be clear that the invention is not limited to the described embodiments which can be varied in different ways within the scope of the claims.

1010080

Claims (10)

1. Method for connecting a connector to a shielded cable, which cable is provided with a number of wires, a common shield and an outer sheath, wherein the wires and the shield are exposed at one end of the cable, a first sleeve-shaped body on the outer jacket is placed near the exposed shield, the exposed shield is placed on the first body and a second sleeve-shaped conductive material body is mounted on the first body to clamp the exposed shield between both bodies, characterized that the first body is mounted on the outer sheath by crimping an axial section of the first body at the end remote from the exposed shield and that the second body is crimped on the first body with an axial section to the exposed wires turned end, which at least partially covers the non-crimped section of the n covers the first body. The method of claim 1, wherein the first body is mounted on the outer jacket with one end of the first body aligned with or preferably extending beyond the outer jacket at the end facing the exposed shield. 3. Method according to claim 1 or 2, wherein the second body is provided at one end with an inwardly directed shoulder, the second body being placed on the first body with the shoulder against the shield placed on the first body. 1010080 The method of claim 1, 2 or 3, wherein the exposed wires are connected to contacts mounted in an insulating housing of the connector, wherein the first and second bodies in a chamber of a first cap are made of conductive material. mounted, wherein the insulating housing is mounted in a lower end of the first hood section and a second conductive hood section with a corresponding chamber is mounted on the first hood section, thereby locking the first and second bodies in the chamber and at least partially upper part of the insulating house is enclosed. 5. A method according to claim 4, wherein a second sleeve-shaped body is used, which has flexible legs at the end remote from the shoulder, wherein the flexible legs are pressed inward during mounting of the bodies in the chambers. 6. Method according to claim 4 or 5, wherein at least one fixing bolt is placed in an associated bolt chamber which is arranged in the interface of the first and second cap part, each bolt comprising a shank section between bolt head and a thread section with a diameter that is is smaller than the thread diameter, each bolt chamber having a passage for receiving the shaft section, the diameter of the passage 25 being smaller than the diameter of the thread and the head of the bolt. 7. Cable connector with a shielded cable which is provided with a number of wires, a shield and an outer sheath, which cable connector is provided with a housing of insulating material in which a number of contacts connected to the wires are included, and a cap of conductive material which is connected to the cable shield, wherein a first, 1010080 sleeve-shaped body is mounted on the outer sheath and a second sleeve-shaped body of conductive material is mounted on the first body, the cable shielding being clamped between both bodies, characterized in that one of 5 the insulating housing remote axial section of the first body is crimped on the outer jacket, an axial section of the second body is crimped on the first body, the axial section of the second body at least partially the crimped section of the first body, and that the bodies are contained in a chamber of the hood with a stop, ie e interacts with at least one of the bodies to lock the bodies into the hood. Cable connector according to claim 7, wherein the second body is provided with spring legs at an axial end, at least the legs being pressed inward when the second body is received in the chamber of the hood. 9. Cable connector parts for use in the method according to any one of claims 1-6, comprising an insulating housing with a number of contacts, first and second cap parts of conductive material, a first sleeve-shaped body and a second sleeve-shaped body, wherein at least the second body is made of a conductive material, characterized in that the second body comprises a cylindrical and a conical part, at least the conical part having a number of slots which are open at one end to provide a number of resilient legs. 10. Cable connector members according to claim 9, wherein the second body includes an inwardly facing shoulder at the end opposite the conical section. 1010080